 The past decade has seen significant advancements in wearable technology through the development of flexible, semi-transparent sensing electronics such as organic slash perovskite photovoltaics, organic thin film transistors, and medical sensors. Conductive polymers, CPs, of Pettit, PSS have emerged as the most promising flexible electrode materials due to their mechanical properties and ability to function as transparent electrodes, whole transport layers, interconnectors, electroactive layers, or motion sensing conductors. Research on Pettit, PSS focuses on enhancing electrical conductivity and mechanical compliance and stability through various approaches with cutting edge progresses in devices including wearable sensors, energy harvesting systems, and flexible displays. While CPs offer advantages such as flexibility and transparency, potential problems include limited electrical conductivity and stability. New perspectives are given for CP modifications and device fabrications to further improve the performance of these next generation devices featuring wearable, deformable, printable, ultra-thin, and see-through characteristics. This article was authored by Shefan, Waninya, Sinhansai, and others. We're article.tv, links in the description below.